Soft computing system for motion control

C. Li; C. Y. Lee

Soft computing system for motion control

C. Li, C. Y. Lee

Department of Information Management

Research output: Contribution to conference › Paper › peer-review

3 Scopus citations

Abstract

The novel concept of pseudo-errors is proposed for self-organizing neuro-fuzzy system (SO-NFS) in this paper. The SO-NFS is viewed as a soft computing system. Based on the concept of pseudo-errors and a clustering algorithm, a neuro-fuzzy system possessing self-organizing ability and learning ability is presented. Pseudo-errors are viewed as the prior knowledge of a given unknown plant, and they are used as important information for the SO-NFS to self-organize its initial knowledge base. Pseudo-errors are potential errors that could be occurred in application. They can be used to indicate where the fuzzy regions are of interest in the input space for application, so to avoid the waste of computational resource. With the information of pseudo-errors, a more concise structure of neuro-fuzzy system can be self-organized. The well-known random optimization (RO) algorithm is used to search for a near-optimal set of parameters for the SO-NFS. The proposed approach is applied to motion control of an auto-warehousing crane system.

Original language	English
Pages	364-369
Number of pages	6
State	Published - 2001
Event	2001 IEEE Intelligent Transportation Systems Proceedings - Oakland, CA, United States Duration: 25 Aug 2001 → 29 Aug 2001

Conference

Conference	2001 IEEE Intelligent Transportation Systems Proceedings
Country/Territory	United States
City	Oakland, CA
Period	25/08/01 → 29/08/01

Keywords

Cluster
Crane system
Motion control
Neuro-fuzzy system
Parameter learning
Pseudo-error
Random optimization
Self-organization
Soft-computing

Cite this

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title = "Soft computing system for motion control",

abstract = "The novel concept of pseudo-errors is proposed for self-organizing neuro-fuzzy system (SO-NFS) in this paper. The SO-NFS is viewed as a soft computing system. Based on the concept of pseudo-errors and a clustering algorithm, a neuro-fuzzy system possessing self-organizing ability and learning ability is presented. Pseudo-errors are viewed as the prior knowledge of a given unknown plant, and they are used as important information for the SO-NFS to self-organize its initial knowledge base. Pseudo-errors are potential errors that could be occurred in application. They can be used to indicate where the fuzzy regions are of interest in the input space for application, so to avoid the waste of computational resource. With the information of pseudo-errors, a more concise structure of neuro-fuzzy system can be self-organized. The well-known random optimization (RO) algorithm is used to search for a near-optimal set of parameters for the SO-NFS. The proposed approach is applied to motion control of an auto-warehousing crane system.",

keywords = "Cluster, Crane system, Motion control, Neuro-fuzzy system, Parameter learning, Pseudo-error, Random optimization, Self-organization, Soft-computing",

author = "C. Li and Lee, {C. Y.}",

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T1 - Soft computing system for motion control

AU - Li, C.

AU - Lee, C. Y.

PY - 2001

Y1 - 2001

N2 - The novel concept of pseudo-errors is proposed for self-organizing neuro-fuzzy system (SO-NFS) in this paper. The SO-NFS is viewed as a soft computing system. Based on the concept of pseudo-errors and a clustering algorithm, a neuro-fuzzy system possessing self-organizing ability and learning ability is presented. Pseudo-errors are viewed as the prior knowledge of a given unknown plant, and they are used as important information for the SO-NFS to self-organize its initial knowledge base. Pseudo-errors are potential errors that could be occurred in application. They can be used to indicate where the fuzzy regions are of interest in the input space for application, so to avoid the waste of computational resource. With the information of pseudo-errors, a more concise structure of neuro-fuzzy system can be self-organized. The well-known random optimization (RO) algorithm is used to search for a near-optimal set of parameters for the SO-NFS. The proposed approach is applied to motion control of an auto-warehousing crane system.

AB - The novel concept of pseudo-errors is proposed for self-organizing neuro-fuzzy system (SO-NFS) in this paper. The SO-NFS is viewed as a soft computing system. Based on the concept of pseudo-errors and a clustering algorithm, a neuro-fuzzy system possessing self-organizing ability and learning ability is presented. Pseudo-errors are viewed as the prior knowledge of a given unknown plant, and they are used as important information for the SO-NFS to self-organize its initial knowledge base. Pseudo-errors are potential errors that could be occurred in application. They can be used to indicate where the fuzzy regions are of interest in the input space for application, so to avoid the waste of computational resource. With the information of pseudo-errors, a more concise structure of neuro-fuzzy system can be self-organized. The well-known random optimization (RO) algorithm is used to search for a near-optimal set of parameters for the SO-NFS. The proposed approach is applied to motion control of an auto-warehousing crane system.

KW - Cluster

KW - Crane system

KW - Motion control

KW - Neuro-fuzzy system

KW - Parameter learning

KW - Pseudo-error

KW - Random optimization

KW - Self-organization

KW - Soft-computing

UR - http://www.scopus.com/inward/record.url?scp=0034784154&partnerID=8YFLogxK

M3 - 會議論文

AN - SCOPUS:0034784154

SP - 364

EP - 369

Y2 - 25 August 2001 through 29 August 2001

ER -

Soft computing system for motion control

Abstract

Conference

Keywords

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